------------------------------------------------------------------------------ -- -- -- GNAT RUN-TIME COMPONENTS -- -- -- -- A D A . D I R E C T O R I E S -- -- -- -- B o d y -- -- -- -- Copyright (C) 2004-2009, Free Software Foundation, Inc. -- -- -- -- GNAT is free software; you can redistribute it and/or modify it under -- -- terms of the GNU General Public License as published by the Free Soft- -- -- ware Foundation; either version 3, or (at your option) any later ver- -- -- sion. GNAT is distributed in the hope that it will be useful, but WITH- -- -- OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY -- -- or FITNESS FOR A PARTICULAR PURPOSE. -- -- -- -- As a special exception under Section 7 of GPL version 3, you are granted -- -- additional permissions described in the GCC Runtime Library Exception, -- -- version 3.1, as published by the Free Software Foundation. -- -- -- -- You should have received a copy of the GNU General Public License and -- -- a copy of the GCC Runtime Library Exception along with this program; -- -- see the files COPYING3 and COPYING.RUNTIME respectively. If not, see -- -- . -- -- -- -- GNAT was originally developed by the GNAT team at New York University. -- -- Extensive contributions were provided by Ada Core Technologies Inc. -- -- -- ------------------------------------------------------------------------------ with Ada.Calendar; use Ada.Calendar; with Ada.Calendar.Formatting; use Ada.Calendar.Formatting; with Ada.Directories.Validity; use Ada.Directories.Validity; with Ada.Strings.Maps; with Ada.Strings.Fixed; with Ada.Strings.Unbounded; use Ada.Strings.Unbounded; with Ada.Unchecked_Conversion; with Ada.Unchecked_Deallocation; with Ada.Characters.Handling; use Ada.Characters.Handling; with System.CRTL; use System.CRTL; with System.OS_Lib; use System.OS_Lib; with System.Regexp; use System.Regexp; with System; package body Ada.Directories is Filename_Max : constant Integer := 1024; -- 1024 is the value of FILENAME_MAX in stdio.h type Dir_Type_Value is new System.Address; -- This is the low-level address directory structure as returned by the C -- opendir routine. No_Dir : constant Dir_Type_Value := Dir_Type_Value (System.Null_Address); Dir_Separator : constant Character; pragma Import (C, Dir_Separator, "__gnat_dir_separator"); -- Running system default directory separator Dir_Seps : constant Ada.Strings.Maps.Character_Set := Ada.Strings.Maps.To_Set ("/\"); -- UNIX and DOS style directory separators Max_Path : Integer; pragma Import (C, Max_Path, "__gnat_max_path_len"); -- The maximum length of a path type Search_Data is record Is_Valid : Boolean := False; Name : Unbounded_String; Pattern : Regexp; Filter : Filter_Type; Dir : Dir_Type_Value := No_Dir; Entry_Fetched : Boolean := False; Dir_Entry : Directory_Entry_Type; end record; -- The current state of a search Empty_String : constant String := (1 .. 0 => ASCII.NUL); -- Empty string, returned by function Extension when there is no extension procedure Free is new Ada.Unchecked_Deallocation (Search_Data, Search_Ptr); procedure Close (Dir : Dir_Type_Value); function File_Exists (Name : String) return Boolean; -- Returns True if the named file exists procedure Fetch_Next_Entry (Search : Search_Type); -- Get the next entry in a directory, setting Entry_Fetched if successful -- or resetting Is_Valid if not. --------------- -- Base_Name -- --------------- function Base_Name (Name : String) return String is Simple : constant String := Simple_Name (Name); -- Simple'First is guaranteed to be 1 begin -- Look for the last dot in the file name and return the part of the -- file name preceding this last dot. If the first dot is the first -- character of the file name, the base name is the empty string. for Pos in reverse Simple'Range loop if Simple (Pos) = '.' then return Simple (1 .. Pos - 1); end if; end loop; -- If there is no dot, return the complete file name return Simple; end Base_Name; ----------- -- Close -- ----------- procedure Close (Dir : Dir_Type_Value) is Discard : Integer; pragma Warnings (Off, Discard); function closedir (directory : DIRs) return Integer; pragma Import (C, closedir, "__gnat_closedir"); begin Discard := closedir (DIRs (Dir)); end Close; ------------- -- Compose -- ------------- function Compose (Containing_Directory : String := ""; Name : String; Extension : String := "") return String is Result : String (1 .. Containing_Directory'Length + Name'Length + Extension'Length + 2); Last : Natural; begin -- First, deal with the invalid cases if Containing_Directory /= "" and then not Is_Valid_Path_Name (Containing_Directory) then raise Name_Error with "invalid directory path name """ & Containing_Directory & '"'; elsif Extension'Length = 0 and then (not Is_Valid_Simple_Name (Name)) then raise Name_Error with "invalid simple name """ & Name & '"'; elsif Extension'Length /= 0 and then not Is_Valid_Simple_Name (Name & '.' & Extension) then raise Name_Error with "invalid file name """ & Name & '.' & Extension & '"'; -- This is not an invalid case so build the path name else Last := Containing_Directory'Length; Result (1 .. Last) := Containing_Directory; -- Add a directory separator if needed if Last /= 0 and then Result (Last) /= Dir_Separator then Last := Last + 1; Result (Last) := Dir_Separator; end if; -- Add the file name Result (Last + 1 .. Last + Name'Length) := Name; Last := Last + Name'Length; -- If extension was specified, add dot followed by this extension if Extension'Length /= 0 then Last := Last + 1; Result (Last) := '.'; Result (Last + 1 .. Last + Extension'Length) := Extension; Last := Last + Extension'Length; end if; return Result (1 .. Last); end if; end Compose; -------------------------- -- Containing_Directory -- -------------------------- function Containing_Directory (Name : String) return String is begin -- First, the invalid case if not Is_Valid_Path_Name (Name) then raise Name_Error with "invalid path name """ & Name & '"'; else declare -- We need to resolve links because of A.16(47), since we must not -- return alternative names for files. Norm : constant String := Normalize_Pathname (Name); Last_DS : constant Natural := Strings.Fixed.Index (Name, Dir_Seps, Going => Strings.Backward); begin if Last_DS = 0 then -- There is no directory separator, returns current working -- directory. return Current_Directory; -- If Name indicates a root directory, raise Use_Error, because -- it has no containing directory. elsif Norm = "/" or else (Windows and then (Norm = "\" or else (Norm'Length = 3 and then Norm (Norm'Last - 1 .. Norm'Last) = ":\" and then (Norm (Norm'First) in 'a' .. 'z' or else Norm (Norm'First) in 'A' .. 'Z')))) then raise Use_Error with "directory """ & Name & """ has no containing directory"; else declare Last : Positive := Last_DS - Name'First + 1; Result : String (1 .. Last); begin Result := Name (Name'First .. Last_DS); -- Remove any trailing directory separator, except as the -- first character or the first character following a drive -- number on Windows. while Last > 1 loop exit when Result (Last) /= '/' and then Result (Last) /= Directory_Separator; exit when Windows and then Last = 3 and then Result (2) = ':' and then (Result (1) in 'A' .. 'Z' or else Result (1) in 'a' .. 'z'); Last := Last - 1; end loop; -- Special case of current directory, identified by "." if Last = 1 and then Result (1) = '.' then return Current_Directory; -- Special case of "..": the current directory may be a root -- directory. elsif Last = 2 and then Result (1 .. 2) = ".." then return Containing_Directory (Current_Directory); else return Result (1 .. Last); end if; end; end if; end; end if; end Containing_Directory; --------------- -- Copy_File -- --------------- procedure Copy_File (Source_Name : String; Target_Name : String; Form : String := "") is pragma Unreferenced (Form); Success : Boolean; begin -- First, the invalid cases if not Is_Valid_Path_Name (Source_Name) then raise Name_Error with "invalid source path name """ & Source_Name & '"'; elsif not Is_Valid_Path_Name (Target_Name) then raise Name_Error with "invalid target path name """ & Target_Name & '"'; elsif not Is_Regular_File (Source_Name) then raise Name_Error with '"' & Source_Name & """ is not a file"; elsif Is_Directory (Target_Name) then raise Use_Error with "target """ & Target_Name & """ is a directory"; else -- The implementation uses System.OS_Lib.Copy_File, with parameters -- suitable for all platforms. Copy_File (Source_Name, Target_Name, Success, Overwrite, None); if not Success then raise Use_Error with "copy of """ & Source_Name & """ failed"; end if; end if; end Copy_File; ---------------------- -- Create_Directory -- ---------------------- procedure Create_Directory (New_Directory : String; Form : String := "") is pragma Unreferenced (Form); C_Dir_Name : constant String := New_Directory & ASCII.NUL; function mkdir (Dir_Name : String) return Integer; pragma Import (C, mkdir, "__gnat_mkdir"); begin -- First, the invalid case if not Is_Valid_Path_Name (New_Directory) then raise Name_Error with "invalid new directory path name """ & New_Directory & '"'; else if mkdir (C_Dir_Name) /= 0 then raise Use_Error with "creation of new directory """ & New_Directory & """ failed"; end if; end if; end Create_Directory; ----------------- -- Create_Path -- ----------------- procedure Create_Path (New_Directory : String; Form : String := "") is pragma Unreferenced (Form); New_Dir : String (1 .. New_Directory'Length + 1); Last : Positive := 1; begin -- First, the invalid case if not Is_Valid_Path_Name (New_Directory) then raise Name_Error with "invalid new directory path name """ & New_Directory & '"'; else -- Build New_Dir with a directory separator at the end, so that the -- complete path will be found in the loop below. New_Dir (1 .. New_Directory'Length) := New_Directory; New_Dir (New_Dir'Last) := Directory_Separator; -- Create, if necessary, each directory in the path for J in 2 .. New_Dir'Last loop -- Look for the end of an intermediate directory if New_Dir (J) /= Dir_Separator and then New_Dir (J) /= '/' then Last := J; -- We have found a new intermediate directory each time we find -- a first directory separator. elsif New_Dir (J - 1) /= Dir_Separator and then New_Dir (J - 1) /= '/' then -- No need to create the directory if it already exists if Is_Directory (New_Dir (1 .. Last)) then null; -- It is an error if a file with such a name already exists elsif Is_Regular_File (New_Dir (1 .. Last)) then raise Use_Error with "file """ & New_Dir (1 .. Last) & """ already exists"; else Create_Directory (New_Directory => New_Dir (1 .. Last)); end if; end if; end loop; end if; end Create_Path; ----------------------- -- Current_Directory -- ----------------------- function Current_Directory return String is Path_Len : Natural := Max_Path; Buffer : String (1 .. 1 + Max_Path + 1); procedure Local_Get_Current_Dir (Dir : System.Address; Length : System.Address); pragma Import (C, Local_Get_Current_Dir, "__gnat_get_current_dir"); begin Local_Get_Current_Dir (Buffer'Address, Path_Len'Address); declare -- We need to resolve links because of A.16(47), since we must not -- return alternative names for files Cur : constant String := Normalize_Pathname (Buffer (1 .. Path_Len)); begin if Cur'Length > 1 and then Cur (Cur'Last) = Dir_Separator then return Cur (1 .. Cur'Last - 1); else return Cur; end if; end; end Current_Directory; ---------------------- -- Delete_Directory -- ---------------------- procedure Delete_Directory (Directory : String) is begin -- First, the invalid cases if not Is_Valid_Path_Name (Directory) then raise Name_Error with "invalid directory path name """ & Directory & '"'; elsif not Is_Directory (Directory) then raise Name_Error with '"' & Directory & """ not a directory"; else declare C_Dir_Name : constant String := Directory & ASCII.NUL; begin if rmdir (C_Dir_Name) /= 0 then raise Use_Error with "deletion of directory """ & Directory & """ failed"; end if; end; end if; end Delete_Directory; ----------------- -- Delete_File -- ----------------- procedure Delete_File (Name : String) is Success : Boolean; begin -- First, the invalid cases if not Is_Valid_Path_Name (Name) then raise Name_Error with "invalid path name """ & Name & '"'; elsif not Is_Regular_File (Name) then raise Name_Error with "file """ & Name & """ does not exist"; else -- The implementation uses System.OS_Lib.Delete_File Delete_File (Name, Success); if not Success then raise Use_Error with "file """ & Name & """ could not be deleted"; end if; end if; end Delete_File; ----------------- -- Delete_Tree -- ----------------- procedure Delete_Tree (Directory : String) is Current_Dir : constant String := Current_Directory; Search : Search_Type; Dir_Ent : Directory_Entry_Type; begin -- First, the invalid cases if not Is_Valid_Path_Name (Directory) then raise Name_Error with "invalid directory path name """ & Directory & '"'; elsif not Is_Directory (Directory) then raise Name_Error with '"' & Directory & """ not a directory"; else Set_Directory (Directory); Start_Search (Search, Directory => ".", Pattern => ""); while More_Entries (Search) loop Get_Next_Entry (Search, Dir_Ent); declare File_Name : constant String := Simple_Name (Dir_Ent); begin if System.OS_Lib.Is_Directory (File_Name) then if File_Name /= "." and then File_Name /= ".." then Delete_Tree (File_Name); end if; else Delete_File (File_Name); end if; end; end loop; Set_Directory (Current_Dir); End_Search (Search); declare C_Dir_Name : constant String := Directory & ASCII.NUL; begin if rmdir (C_Dir_Name) /= 0 then raise Use_Error with "directory tree rooted at """ & Directory & """ could not be deleted"; end if; end; end if; end Delete_Tree; ------------ -- Exists -- ------------ function Exists (Name : String) return Boolean is begin -- First, the invalid case if not Is_Valid_Path_Name (Name) then raise Name_Error with "invalid path name """ & Name & '"'; else -- The implementation is in File_Exists return File_Exists (Name); end if; end Exists; --------------- -- Extension -- --------------- function Extension (Name : String) return String is begin -- First, the invalid case if not Is_Valid_Path_Name (Name) then raise Name_Error with "invalid path name """ & Name & '"'; else -- Look for first dot that is not followed by a directory separator for Pos in reverse Name'Range loop -- If a directory separator is found before a dot, there is no -- extension. if Name (Pos) = Dir_Separator then return Empty_String; elsif Name (Pos) = '.' then -- We found a dot, build the return value with lower bound 1 declare subtype Result_Type is String (1 .. Name'Last - Pos); begin return Result_Type (Name (Pos + 1 .. Name'Last)); end; end if; end loop; -- No dot were found, there is no extension return Empty_String; end if; end Extension; ---------------------- -- Fetch_Next_Entry -- ---------------------- procedure Fetch_Next_Entry (Search : Search_Type) is Name : String (1 .. 255); Last : Natural; Kind : File_Kind := Ordinary_File; -- Initialized to avoid a compilation warning Filename_Addr : System.Address; Filename_Len : aliased Integer; Buffer : array (0 .. Filename_Max + 12) of Character; -- 12 is the size of the dirent structure (see dirent.h), without the -- field for the filename. function readdir_gnat (Directory : System.Address; Buffer : System.Address; Last : not null access Integer) return System.Address; pragma Import (C, readdir_gnat, "__gnat_readdir"); use System; begin -- Search.Value.Is_Valid is always True when Fetch_Next_Entry is called loop Filename_Addr := readdir_gnat (System.Address (Search.Value.Dir), Buffer'Address, Filename_Len'Access); -- If no matching entry is found, set Is_Valid to False if Filename_Addr = System.Null_Address then Search.Value.Is_Valid := False; exit; end if; declare subtype Path_String is String (1 .. Filename_Len); type Path_String_Access is access Path_String; function Address_To_Access is new Ada.Unchecked_Conversion (Source => Address, Target => Path_String_Access); Path_Access : constant Path_String_Access := Address_To_Access (Filename_Addr); begin Last := Filename_Len; Name (1 .. Last) := Path_Access.all; end; -- Check if the entry matches the pattern if Match (Name (1 .. Last), Search.Value.Pattern) then declare Full_Name : constant String := Compose (To_String (Search.Value.Name), Name (1 .. Last)); Found : Boolean := False; begin if File_Exists (Full_Name) then -- Now check if the file kind matches the filter if Is_Regular_File (Full_Name) then if Search.Value.Filter (Ordinary_File) then Kind := Ordinary_File; Found := True; end if; elsif Is_Directory (Full_Name) then if Search.Value.Filter (Directory) then Kind := Directory; Found := True; end if; elsif Search.Value.Filter (Special_File) then Kind := Special_File; Found := True; end if; -- If it does, update Search and return if Found then Search.Value.Entry_Fetched := True; Search.Value.Dir_Entry := (Is_Valid => True, Simple => To_Unbounded_String (Name (1 .. Last)), Full => To_Unbounded_String (Full_Name), Kind => Kind); exit; end if; end if; end; end if; end loop; end Fetch_Next_Entry; ----------------- -- File_Exists -- ----------------- function File_Exists (Name : String) return Boolean is function C_File_Exists (A : System.Address) return Integer; pragma Import (C, C_File_Exists, "__gnat_file_exists"); C_Name : String (1 .. Name'Length + 1); begin C_Name (1 .. Name'Length) := Name; C_Name (C_Name'Last) := ASCII.NUL; return C_File_Exists (C_Name (1)'Address) = 1; end File_Exists; -------------- -- Finalize -- -------------- procedure Finalize (Search : in out Search_Type) is begin if Search.Value /= null then -- Close the directory, if one is open if Search.Value.Dir /= No_Dir then Close (Search.Value.Dir); end if; Free (Search.Value); end if; end Finalize; --------------- -- Full_Name -- --------------- function Full_Name (Name : String) return String is begin -- First, the invalid case if not Is_Valid_Path_Name (Name) then raise Name_Error with "invalid path name """ & Name & '"'; else -- Build the return value with lower bound 1 -- Use System.OS_Lib.Normalize_Pathname declare -- We need to resolve links because of A.16(47), since we must not -- return alternative names for files Value : constant String := Normalize_Pathname (Name); subtype Result is String (1 .. Value'Length); begin return Result (Value); end; end if; end Full_Name; function Full_Name (Directory_Entry : Directory_Entry_Type) return String is begin -- First, the invalid case if not Directory_Entry.Is_Valid then raise Status_Error with "invalid directory entry"; else -- The value to return has already been computed return To_String (Directory_Entry.Full); end if; end Full_Name; -------------------- -- Get_Next_Entry -- -------------------- procedure Get_Next_Entry (Search : in out Search_Type; Directory_Entry : out Directory_Entry_Type) is begin -- First, the invalid case if Search.Value = null or else not Search.Value.Is_Valid then raise Status_Error with "invalid search"; end if; -- Fetch the next entry, if needed if not Search.Value.Entry_Fetched then Fetch_Next_Entry (Search); end if; -- It is an error if no valid entry is found if not Search.Value.Is_Valid then raise Status_Error with "no next entry"; else -- Reset Entry_Fetched and return the entry Search.Value.Entry_Fetched := False; Directory_Entry := Search.Value.Dir_Entry; end if; end Get_Next_Entry; ---------- -- Kind -- ---------- function Kind (Name : String) return File_Kind is begin -- First, the invalid case if not File_Exists (Name) then raise Name_Error with "file """ & Name & """ does not exist"; elsif Is_Regular_File (Name) then return Ordinary_File; elsif Is_Directory (Name) then return Directory; else return Special_File; end if; end Kind; function Kind (Directory_Entry : Directory_Entry_Type) return File_Kind is begin -- First, the invalid case if not Directory_Entry.Is_Valid then raise Status_Error with "invalid directory entry"; else -- The value to return has already be computed return Directory_Entry.Kind; end if; end Kind; ----------------------- -- Modification_Time -- ----------------------- function Modification_Time (Name : String) return Time is Date : OS_Time; Year : Year_Type; Month : Month_Type; Day : Day_Type; Hour : Hour_Type; Minute : Minute_Type; Second : Second_Type; Result : Time; begin -- First, the invalid cases if not (Is_Regular_File (Name) or else Is_Directory (Name)) then raise Name_Error with '"' & Name & """ not a file or directory"; else Date := File_Time_Stamp (Name); -- Break down the time stamp into its constituents relative to GMT. -- This version of Split does not recognize leap seconds or buffer -- space for time zone processing. GM_Split (Date, Year, Month, Day, Hour, Minute, Second); -- On OpenVMS, the resulting time value must be in the local time -- zone. Ada.Calendar.Time_Of is exactly what we need. Note that -- in both cases, the sub seconds are set to zero (0.0) because the -- time stamp does not store them in its value. if OpenVMS then Result := Ada.Calendar.Time_Of (Year, Month, Day, Seconds_Of (Hour, Minute, Second, 0.0)); -- On Unix and Windows, the result must be in GMT. Ada.Calendar. -- Formatting.Time_Of with default time zone of zero (0) is the -- routine of choice. else Result := Time_Of (Year, Month, Day, Hour, Minute, Second, 0.0); end if; return Result; end if; end Modification_Time; function Modification_Time (Directory_Entry : Directory_Entry_Type) return Ada.Calendar.Time is begin -- First, the invalid case if not Directory_Entry.Is_Valid then raise Status_Error with "invalid directory entry"; else -- The value to return has already be computed return Modification_Time (To_String (Directory_Entry.Full)); end if; end Modification_Time; ------------------ -- More_Entries -- ------------------ function More_Entries (Search : Search_Type) return Boolean is begin if Search.Value = null then return False; elsif Search.Value.Is_Valid then -- Fetch the next entry, if needed if not Search.Value.Entry_Fetched then Fetch_Next_Entry (Search); end if; end if; return Search.Value.Is_Valid; end More_Entries; ------------ -- Rename -- ------------ procedure Rename (Old_Name, New_Name : String) is Success : Boolean; begin -- First, the invalid cases if not Is_Valid_Path_Name (Old_Name) then raise Name_Error with "invalid old path name """ & Old_Name & '"'; elsif not Is_Valid_Path_Name (New_Name) then raise Name_Error with "invalid new path name """ & New_Name & '"'; elsif not Is_Regular_File (Old_Name) and then not Is_Directory (Old_Name) then raise Name_Error with "old file """ & Old_Name & """ does not exist"; elsif Is_Regular_File (New_Name) or else Is_Directory (New_Name) then raise Use_Error with "new name """ & New_Name & """ designates a file that already exists"; else -- The implementation uses System.OS_Lib.Rename_File Rename_File (Old_Name, New_Name, Success); if not Success then raise Use_Error with "file """ & Old_Name & """ could not be renamed"; end if; end if; end Rename; ------------ -- Search -- ------------ procedure Search (Directory : String; Pattern : String; Filter : Filter_Type := (others => True); Process : not null access procedure (Directory_Entry : Directory_Entry_Type)) is Srch : Search_Type; Directory_Entry : Directory_Entry_Type; begin Start_Search (Srch, Directory, Pattern, Filter); while More_Entries (Srch) loop Get_Next_Entry (Srch, Directory_Entry); Process (Directory_Entry); end loop; End_Search (Srch); end Search; ------------------- -- Set_Directory -- ------------------- procedure Set_Directory (Directory : String) is C_Dir_Name : constant String := Directory & ASCII.NUL; begin if not Is_Valid_Path_Name (Directory) then raise Name_Error with "invalid directory path name & """ & Directory & '"'; elsif not Is_Directory (Directory) then raise Name_Error with "directory """ & Directory & """ does not exist"; elsif chdir (C_Dir_Name) /= 0 then raise Name_Error with "could not set to designated directory """ & Directory & '"'; end if; end Set_Directory; ----------------- -- Simple_Name -- ----------------- function Simple_Name (Name : String) return String is function Simple_Name_Internal (Path : String) return String; -- This function does the job -------------------------- -- Simple_Name_Internal -- -------------------------- function Simple_Name_Internal (Path : String) return String is Cut_Start : Natural := Strings.Fixed.Index (Path, Dir_Seps, Going => Strings.Backward); Cut_End : Natural; begin -- Cut_Start pointS to the first simple name character Cut_Start := (if Cut_Start = 0 then Path'First else Cut_Start + 1); -- Cut_End point to the last simple name character Cut_End := Path'Last; Check_For_Standard_Dirs : declare BN : constant String := Path (Cut_Start .. Cut_End); Has_Drive_Letter : constant Boolean := System.OS_Lib.Path_Separator /= ':'; -- If Path separator is not ':' then we are on a DOS based OS -- where this character is used as a drive letter separator. begin if BN = "." or else BN = ".." then return ""; elsif Has_Drive_Letter and then BN'Length > 2 and then Characters.Handling.Is_Letter (BN (BN'First)) and then BN (BN'First + 1) = ':' then -- We have a DOS drive letter prefix, remove it return BN (BN'First + 2 .. BN'Last); else return BN; end if; end Check_For_Standard_Dirs; end Simple_Name_Internal; -- Start of processing for Simple_Name begin -- First, the invalid case if not Is_Valid_Path_Name (Name) then raise Name_Error with "invalid path name """ & Name & '"'; else -- Build the value to return with lower bound 1 declare Value : constant String := Simple_Name_Internal (Name); subtype Result is String (1 .. Value'Length); begin return Result (Value); end; end if; end Simple_Name; function Simple_Name (Directory_Entry : Directory_Entry_Type) return String is begin -- First, the invalid case if not Directory_Entry.Is_Valid then raise Status_Error with "invalid directory entry"; else -- The value to return has already be computed return To_String (Directory_Entry.Simple); end if; end Simple_Name; ---------- -- Size -- ---------- function Size (Name : String) return File_Size is C_Name : String (1 .. Name'Length + 1); function C_Size (Name : System.Address) return Long_Integer; pragma Import (C, C_Size, "__gnat_named_file_length"); begin -- First, the invalid case if not Is_Regular_File (Name) then raise Name_Error with "file """ & Name & """ does not exist"; else C_Name (1 .. Name'Length) := Name; C_Name (C_Name'Last) := ASCII.NUL; return File_Size (C_Size (C_Name'Address)); end if; end Size; function Size (Directory_Entry : Directory_Entry_Type) return File_Size is begin -- First, the invalid case if not Directory_Entry.Is_Valid then raise Status_Error with "invalid directory entry"; else -- The value to return has already be computed return Size (To_String (Directory_Entry.Full)); end if; end Size; ------------------ -- Start_Search -- ------------------ procedure Start_Search (Search : in out Search_Type; Directory : String; Pattern : String; Filter : Filter_Type := (others => True)) is function opendir (file_name : String) return DIRs; pragma Import (C, opendir, "__gnat_opendir"); C_File_Name : constant String := Directory & ASCII.NUL; Pat : Regexp; Dir : Dir_Type_Value; begin -- First, the invalid case Name_Error if not Is_Directory (Directory) then raise Name_Error with "unknown directory """ & Simple_Name (Directory) & '"'; end if; -- Check the pattern begin Pat := Compile (Pattern, Glob => True, Case_Sensitive => Is_Path_Name_Case_Sensitive); exception when Error_In_Regexp => Free (Search.Value); raise Name_Error with "invalid pattern """ & Pattern & '"'; end; Dir := Dir_Type_Value (opendir (C_File_Name)); if Dir = No_Dir then raise Use_Error with "unreadable directory """ & Simple_Name (Directory) & '"'; end if; -- If needed, finalize Search Finalize (Search); -- Allocate the default data Search.Value := new Search_Data; -- Initialize some Search components Search.Value.Filter := Filter; Search.Value.Name := To_Unbounded_String (Full_Name (Directory)); Search.Value.Pattern := Pat; Search.Value.Dir := Dir; Search.Value.Is_Valid := True; end Start_Search; end Ada.Directories;